The plasma membrane and thyroid hormone entry into cells.

A growing body of evidence indicates that many cells accumulate thyroid hormone by energy-dependent receptor-mediated pathways. Their contributions to the regulation of thyroid hormone metabolism and action are now being addressed.     

Correlation between metastatic potential and variants from colorectal tumor cell line HT-29

AIM: To evaluate the relationship between uPA, PAI-1, CEA, PI3K and metastatic potential in three colorectal tumor cell lines. METHODS: Metastatic model in nude rats was established by variants HT-29c and HT-29d cell lines and the metastatic potential of two tumor cell variants was compared. Urokinase-type plasminogen activator (uPA) and plasminogen activator inhibitor type 1 (PAI-1) were determined using ELISA in colorectal carcinoma WiDr, HT-29 and HT-29d cell lines with different metastatic potentials. Expression of carcinoembryonic antigen (CEA) and phosphoinositide 3-kinase (PI3-Kinase) was analyzed using immunohistochemistry (IHC) in these cell lines in vitro and in vivo. CEA expression was compared using fluorescence activated cell sorter (FACS) in vitro. RESULTS: The number of HT-29d cells arrested in liver dramatically decreased within the initial 24 hours after injection. The taking rate of liver metastases in the variant HT-29d increased as compared with parental HT-29 cells (70% versus 50%) and a variant HT-29b cells (70% versus 60%), and extensive organs were synchronously involved in metastases. The uPA concentration of variant HT-29d cell line was significantly higher than that of the non-metastatic WiDr and the low metastatic HT-29 cell lines. The variant HT-29d cells produced stronger PI3-kinase expression as compared with the non-metastatic WiDr cells and the low metastatic HT-29 cells in vivo. CONCLUSION: The selected variant HT-29d cell exhibited an enhanced metastatic potential. The level of uPA and PAI-1 is positively correlated with the metastatic capacity of tumor cells. The expression of PI3-kinase correlates with tumor development and metastasis.     

Calcium entry into the inositol 1,4,5-trisphosphate-releasable calcium pool is mediated by a GTP-regulatory mechanism.

Intracellular Ca2+ release activated by inositol 1,4,5-trisphosphate (InsP3) plays a pivotal role in Ca2+ signaling in cells. A controlling mechanism for InsP3-induced Ca2+ movements is suggested by results showing that the InsP3-releasable Ca2+ pool is directly modified by a specific and sensitive GTP-regulated Ca2+-translocating process. By using saponin-permeabilized N1E-115 neuroblastoma cells or DDT1MF-2 smooth muscle-derived cells, InsP3 releases 30-50% of Ca2+ accumulated through intracellular high-affinity ATP-dependent Ca2+-pumping activity. Oxalate-promoted Ca2+ uptake is reversed by InsP3, indicating oxalate permeability of the InsP3-releasable pool, which is consistent with this compartment being the endoplasmic reticulum. GTP (10 microM) activates release of 50-70% of accumulated Ca2+ from cells. In the presence of 5-10 mM oxalate, GTP induces a biphasic Ca2+ flux response; initially (1-2 min) GTP induces rapid Ca2+ release followed thereafter by a profound increase in Ca2+ uptake. Thus, GTP-activated Ca2+ influx and efflux compete for Ca2+ access to the oxalate-permeable Ca2+ pool. The nonadditive effects of InsP3 and GTP suggest that InsP3 releases Ca2+ from a subcompartment of the GTP-releasable pool. Most significantly, InsP3 is observed to block the GTP-activated uptake phase in the presence of oxalate, indicating that GTP induces Ca2+ entry into the pool from which InsP3 activates release. Hence, the results provide direct evidence that loading of Ca2+ into the InsP3-sensitive Ca2+ pool is controlled by a GTP-regulated Ca2+-translocating mechanism. Such a process could be significant in regulating the extent and duration of the InsP3-induced Ca2+ signal, a crucial step in the inositol phospholipid signaling pathway.     

Proteoglycan production by bovine granulosa cells in vitro is regulated by calmodulin and calcium

Proteoglycan production by granulosa cells in vitro is regulated by gonadotropins. The objective of this study was to determine if FSH stimulation of proteoglycan synthesis was modulated by calmodulin or calcium. Assay for calmodulin using an ATPase assay dependent on calmodulin yielded concentrations of 7.7 microM. Bovine granulosa cells from follicles 1-9 mm diameter were incubated for 45 minutes in a chemically defined medium containing 5 microCi/ml 3H-glucosamine and various phenothiazine drugs which are inhibitors of calmodulin. In response to oFSH or rFSH at equivalent biological potencies, proteoglycan production decreased with increasing concentrations of phenothiazines from 1 to 50 microM. Addition of EGTA at 0.0, 0.5, 1.0 or 2.0 mM showed decreased proteoglycan production with increased amounts of the chelator. These data suggest that calmodulin and calcium are necessary for proteoglycan production by granulosa cells in response to FSH in vitro.     

Modulation of aortic smooth muscle cell membrane potential by extracellular calcium

Removal of extracellular calcium may result in depolarization of the resting cell membrane potential. This has been attributed to the stabilizing action of calcium on the ionic permeability of the cell membrane. It is unknown whether this phenomenon is exclusively mediated by extracellular calcium or through associated changes in intracellular calcium. To examine this, we exposed rat aortic smooth muscle cells in culture to different calcium concentrations and studied their effects on the resting membrane potential and intracellular calcium activity. The resting membrane potential was dependent on the extracellular potassium concentration. Exposure to reduced extracellular calcium concentrations (0.25 and 0.5 mM) caused a steep and reversible depolarization of the membrane potential, but intracellular calcium, measured with fura 2-AM, was not reduced below that measured in control conditions (1.8 mM). Atomic absorption spectrophotometric measurements did not indicate a measurable gain in cell sodium after reduction of extracellular calcium levels. We conclude that extracellular calcium controls the resting cell membrane potential of vascular smooth muscle through a mechanism that is independent of cytosolic Ca2+ activity.     

Correlation between the effects of bombesin antagonists on cell proliferation and intracellular calcium concentration in Swiss 3T3 and HT-29 cell lines.

Bombesin (BN) acts as an autocrine mitogen in various human cancers. Several pseudononapeptide BN-(6-14) analogs with a reduced peptide bond between positions 13 and 14 have been shown to suppress the mitogenic activity of BN or gastrin-releasing peptide (GRP) when assessed by radioreceptor or proliferation assays and may have significant clinical applications. The search for potent and safe BN antagonists requires the evaluation of a large series of analogs in radioreceptor and proliferation assays. In this paper, we report that the ability of BN analogs to inhibit BN-induced calcium transients in Swiss 3T3 cells shows a high correlation with their inhibitory potency as evaluated by classical proliferation tests. The assay of calcium transients allows a rapid characterization of new BN analogs (in terms of minutes rather than days) and can be adapted as a labor and cost-effective screening step in the selection of potentially relevant BN antagonists for further characterization in cell proliferation systems. We also observed that results from the assay of calcium transients in Swiss 3T3 cells can be correlated with the results of the proliferative response in HT-29 cells, a cell line that does not seem to use the same early transmembrane ionic signal system. This result suggests that the calcium pathway is not mandatory for triggering cell division by the BN receptor.     

Normal heart rhythm is initiated and regulated by an intracellular calcium clock within pacemaker cells

For almost half a century it has been thought that the heart rhythm originates on the surface membrane of the cardiac pacemaker cells and is driven by voltage-gated ion channels (membrane clocks). Data from several recent studies, however, conclusively show that the rhythm is initiated, sustained, and regulated by oscillatory Ca(2+) releases (Ca(2+) clock) from the sarcoplasmic reticulum, a major Ca(2+) store within sinoatrial node cells, the primary heart's pacemakers. Activation of the local oscillatory Ca(2+) releases is independent of membrane depolarisation and driven by a high level of basal state phosphorylation of Ca(2+) cycling proteins. The releases produce Ca(2+) wavelets under the cell surface membrane during the later phase of diastolic depolarisation and activate the forward mode of Na(+)/Ca(2+) exchanger resulting in inward membrane current, which ignites an action potential. Phosphorylation-dependent gradation of speed at which Ca(2+) clock cycles is the essential regulatory mechanism of normal pacemaker rate and rhythm. The robust regulation of pacemaker function is insured by tight integration of Ca(2+) and membrane clocks: the action potential shape and ion fluxes are tuned by membrane clocks to sustain operation of the Ca(2+) clock which produces timely and powerful ignition of the membrane clocks to effect action potentials.     

舒林酸对结肠腺癌HT-29细胞增殖调控的实验研究

目的 观察舒林酸对结肠腺癌ＨＴ－２９细胞增殖的影响,探讨其作用机制。方法 采用ＭＴＴ比色法观察舒林酸对ＨＴ－２９细胞增殖的影响;采用流式细胞仪检测舒林酸对ＨＴ－２９细胞周期的影响,同时结合ＤＮＡ电泳和透射电镜观察舒林酸对ＨＴ－２９细胞有无促凋亡作用。结果 舒林酸可抑制ＨＴ－２９细胞增殖,使Ｇ０／Ｇ１期细胞比例增高,Ｓ期比例降低,７２ｈ后,ＨＴ－２９细胞凋亡分别上升至１２．５＾、１５．４＾和２４．２     

Noninflammatory expression of E-selectin is regulated by cell growth.

E-selectin, an endothelial-specific adhesion molecule best known for its role in leukocyte adhesion, is not detected in quiescent endothelial cells, but is induced by inflammatory stimuli. However, E-selectin is also expressed in proliferating endothelial cells under noninflammatory conditions in vivo and in vitro, suggesting that E-selectin is also regulated by growth signals. To investigate E-selectin expression in lipopolysaccharide-stimulated versus nonstimulated proliferating cells, we analyzed the distribution of E-selectin-positive human microvascular endothelial cells in G0/G1, S, and G2/M phases of the cell cycle under both conditions. Lipopolysaccharide treatment resulted in uniformly increased E-selectin expression in cells in G0/G1, S, and G2/M. In contrast, levels of E-selectin in nonstimulated proliferating cells showed a linear correlation with the percentage of cells in G2/M. E-selectin in proliferating endothelial cells was not reduced by addition of soluble tumor necrosis factor-alpha-receptor or soluble interleukin-1-receptor indicating that its expression was not due to endogenous production of either cytokine. In addition, E-selectin was increased in cells stimulated with basic fibroblast growth factor, a well-known mitogen for endothelial cells. E-selectin in proliferating endothelial cells is functional, as shown by E-selectin-dependent adhesion of the promyelocytic leukemia cell line HL-60 to subconfluent human microvascular endothelial cells. In summary, these studies indicate that E-selectin can be regulated by a non-inflammatory pathway that is related to the proliferative state of the endothelium.     

Aging of hematopoietic stem cells is regulated by the stem cell niche

Adult stem cells provide the basis for regeneration of aging tissue. Their dual ability for self-renewal and multilineage differentiation is controlled by direct interaction with a specific microenvironment -- the so called "stem cell niche". Hematopoietic stem cells (HSC) reside in the bone marrow. It is still under debate if HSC can rejuvenate infinitively or if they do not possess "true" self-renewal and undergo replicative senescence such as any other somatic cell. Furthermore, the question arises to what extent age-related changes in HSC are due to intrinsic factors or regulated by external stimuli. There is growing evidence, that the stem cell niche is most important for the regulation of cellular aging in adult stem cells. It is the stem cell niche that (i) maintains HSC in a quiescent state that reduces DNA damage as well as replicative senescence, (ii) protects from radicals and toxic compounds, (iii) regulates cell intrinsic signal cascades and (iv) modulates gene expression and epigenetic modifications in HSC. Thus, the interplay with the stem cell niche controls HSC function including the aging process of the hematopoiesis.     

Involvement of cell calcium and transmembrane potential in control of hepatocyte volume

This study examined the role of hepatocyte calcium and cytoskeleton in activation of hyposmotic stress-induced increases in hepatocyte transmembrane potential and control of cell volume. Hepatocyte transmembrane potential was measured by glass microelectrodes in mouse liver slices before and after exposure to hyposmotic medium. Hepatocytes were loaded with tetramethylammonium by briefly exposing liver slices to nystatin, a cation poreforming antibiotic. Changes in hepatocyte steady-state water volume were determined by changes in intracellular tetramethylammonium activity measured with tetramethylammonium-sensitive, double-barrel micro-electrodes 4 min after exposure to hyposmotic medium. Hyposmotic stress of 74% of the control osmolality (approximately 280 mOsm) hyperpolarized hepatocyte transmembrane potential by 1.83 times the control hepatocyte transmembrane potential, and cell water volume increased by a factor of 1.19. The Ca2+ channel blocker verapamil (100 mumol/L) completely inhibited hyposmotic stress-induced hyperpolarization of hepatocyte transmembrane potential. This inhibitory effect diminished at doses of 37.5 or 50 mumol/L, but even these hyperpolarizations were decreased significantly compared with control. Hyposmotic stress during added verapamil dosage (50 mumol/L) also resulted in 23% greater cell swelling compared with control. Ca(2+)-free medium plus ethylene glycol-bis (beta-aminoethylether)-N,N'-tetraacetic acid (5 mmol/L) inhibited hyposmotic stress-induced increases in hepatocyte transmembrane potential and resulted in 16% greater cell swelling compared with control. Calmodulin inhibitors trifluoperazine (100 mumol/L) and promethazine (100 mumol/L) inhibited the hyperpolarization of hepatocyte transmembrane potential caused by hyposmolality, as did 3,4,5-trimethoxybenzoate 8-(N,N-diethylamino)octyl ester) (50 mumol/L), which inhibits mobilization of Ca2+ from intracellular stores. Cytochalasin B (50 mumol/L), which disrupts microfilaments, also inhibited hyperpolarization of hepatocyte transmembrane potential with osmotic stress.(ABSTRACT TRUNCATED AT 250 WORDS)     

Characterisation of oxidative injury to an intestinal cell line (HT-29) by hydrogen peroxide.

Reactive oxygen metabolites have been implicated in causing epithelial cell injury in colonic inflammation. A model of oxidant injury in intestinal epithelial cells has been developed in which HT-29-18-C1 cells are injured with graded concentrations of hydrogen peroxide and characterised by the MTT test. The MTT test was validated as a cytotoxicity assay and has a similar sensitivity to hydrogen peroxide induced injury as the assay of intracellular adenosine triphosphate. Exposure to a range of hydrogen peroxide concentrations (0.05-20 mM) for varying duration (5-120 min) showed that injury was dependent on time and concentration. The median lethal dose (LD50) for one hour exposure to hydrogen peroxide was approximately 0.1 mM. Injury from hydrogen peroxide was only partially reversible as determined by the MTT test and assay of cellular proliferation by crystal violet staining. There was an exponential loss of hydrogen peroxide when incubated with HT-29-18-C1 cells (t1/2 35 min). Experiments with 0.5 mg/ml aminotriazole and 0.5-2 mM buthionine sulphoximine suggested hydrogen peroxide breakdown was predominantly caused by catalase rather than glutathione peroxidase. Injury resulting from 1 mM hydrogen peroxide could be reduced by either coincubation of cells with 1,10-phenanthroline, an Fe2+ chelator, or preincubation with deferoxamine, and Fe3+ chelator, suggesting the participation of Fe2+ and Fe3+ in hydrogen peroxide induced injury. In conclusion, hydrogen peroxide induces injury in HT-29-18-C1 cells both directly and by generation of the hydroxyl radical.     

表皮生长因子对HT-29细胞内游离Ca~(2 )和C-AMP的影响

本文应用荧光比色法和放射免疫法动态检测了表皮生长因子对大肠癌HT-29细胞内Ca~(2 )和C-AMP水平的影响。结果发表EGF可呈剂量依赖性升高Ca~(2 )水平,而EGF-R抗体则可阻断此作用;EGF可短时降低C-AMP水平,提示Ca2 和C-AMP参于EGF作用的信息传递。     

Insulin-like growth factor binding protein-4 expression is dependent on the carbohydrate in the media in HT-29 cells.

HT-29 are colonic carcinoma cells that follow a unique pattern of differentiation dependent on the medium's carbohydrate source. This study compared levels of insulin-like growth factor (IGF)-II and IGF binding protein (IGFBP)-4 when HT-29 cells were grown with standard glucose-containing medium versus galactose-containing (glucose-free) medium. Serum-free media conditioned for 24h were collected at low density, pre-confluence, confluence, and 48-h post-confluence. Ligand blotting of the conditioned galactose medium demonstrated low IGFBP-4 levels until the cells approached confluence, when the levels increased significantly. In standard medium, IGFBP-4 levels increased with increasing cell numbers except for a transient decrease at confluence. Radioimmunoassay showed little change in IGF-II concentrations, although HT-29 cells grown with galactose had lower IGF-II concentrations. HT-29 cells treated with retinoic acid had dose-dependent increases in IGFBP-4 and reduced IGF-II expression. These studies suggest that HT-29 cell differentiation correlates with an increase in IGFBP-4 levels.     

Capacitative calcium entry and transient receptor potential canonical 6 expression control human hepatoma cell proliferation

Store-operated calcium entry (SOCE) is the main Ca(2+) influx pathway involved in controlling proliferation of the human hepatoma cell lines Huh-7 and HepG2. However, the molecular nature of the calcium channels involved in this process remains unknown. Huh-7 and HepG2 cells express transient receptor potential canonical 1 (TRPC1) and TRPC6, as well as STIM1 and Orai1, and these 4 channels are the most likely candidates to account for the SOCE in these cells. We generated stable TRPC6-overexpressing or TRPC6-knockdown Huh-7 clones, in which we investigated correlations between the presence of the protein, the rate of cell proliferation, and SOCE amplitude. TRPC6-overexpressing Huh-7 cells proliferated 80% faster than did untransfected cells and their SOCE amplitude was 160% higher. By contrast, proliferation rate was 50% lower and SOCE amplitude 85% lower in TRPC6-knockdown clones than in untransfected cells. OAG (olyl acetyl glycerol)-induced calcium entry was similar in all cells, and small interfering RNA (siRNA) against TRPC1 had no effect on SOCE amplitude, highlighting the relationship among SOCE, TRPC6 and cell proliferation in Huh-7 cells. SOCE amplitude was reduced by STIM1 and Orai1 knockdowns, suggesting possible cooperation between these proteins and TRPC6 in these cells. Endothelial growth factor and hepatocyte growth factor increased TRPC6 expression and SOCE amplitude in Huh-7 cells, and cyclin D1 expression was decreased by STIM1, Orai1, and TRPC6 knockdowns. CONCLUSION: TRPC6 was very weakly expressed in isolated hepatocytes from healthy patients and expressed more strongly in tumoral samples from the liver of a cancer patient, strongly supporting a role for these calcium channels in liver oncogenesis.     

Rosiglitazone enhances fluorouracil-induced apoptosis of HT-29 cells by activating peroxisome proliferator-activated receptor γ

AIM:To examine whether and how rosiglitazone enhances apoptosis induced by fluorouracil in human colon cancer(HT-29)cells.METHODS:Human colon cancer HT-29 cells were cultured in vitro and treated with fluorouracil and/or rosiglitazone.Proliferation and growth of HT-29 cells were evaluated by MTT assay and trypan blue exclusion methods,respectively.The apoptosis of HT-29 cells was determined by acridine orange/ethidium bromide staining and flow cytometry using PI fluorescence staining.The expressions of peroxisome proliferator-activated receptor γ(PPARγ),Bcl-2 and Bax in HT-29 cells were analyzed by Western blot.RESULTS:Although rosiglitazone at the concentration below 30 μmol/L for 72 h exerted almost no inhibitory effect on proliferation and growth of HT-29 cells,it could significantly enhance fluorouracil-induced HT-29 cell proliferation and growth inhibition.Furthermore,10 μmol/L rosilitazone did not induce apoptosis of HT-29 cells but dramatically enhanced fluorouracil-induced apoptosis of HT-29 cells.However,rosiglitazone did not improve apoptosis induced by fluorouracil in HT-29 cells pretreated with GW9662,a PPARγ antagonist.Meanwhile,the expression of Bax and PPARγ was up-regulated,while the expression of Bcl-2 was down regulated in HT-29 cells treated with rosiglitazone in a time-dependent manner.However,the effect of rosiglitazone on Bcl-2 and Bax was blocked or diminished in the presence of GW9662.CONCLUSION:Rosiglitazone enhances fluorouracil-induced apoptosis of HT-29 cells by activating PPARγ.     

Effect of gliadin and other food peptides on expression of MHC class II molecules by HT-29 cells.

Expression of major histocompatibility (MHC) class II molecules by enterocytes is known to be enhanced in coeliac disease and other disorders characterised by intestinal inflammation--an effect thought to be mediated via intestinal lymphocytes. To investigate if food peptides can exert direct effects on class II expression, the influence of gliadins, casein, and beta lactoglobulin on an intestinal epithelial cell line (HT-29) was examined in the absence of immune cells. Class II expression was determined by flow cytometry and immunofluorescence microscopy using antibodies against the beta chain of all products of the gene subregions DR, DQ, and DP. MHC expression was low in HT-29 cells but could be stimulated by interferon gamma. Tryptin digested gliadin had no effect on class II expression. In the presence of interferon gamma, however, it was able to amplify MHC class II expression to mean (SEM) 150 (4)%. Casein exerted a similar effect (160 (14)%), but undigested gliadin, tryptin digested casein, and beta lactoglobulin had no influence. The observations suggest that within the concert of cytokine mediated interactions between enterocytes and lymphocytes, some dietary peptides could upregulate the presentation of food antigens, leading to a more efficient stimulation of lymphocytes, which in the case of coeliac disease might result in damage to the enterocytes.     

Effect of methyclothiazide on the entry of calcium into vascular smooth muscle cells

The possible involvement of calcium and potassium channels in mediating the vascular actions of methyclothiazide (MCTZ), a thiazide diuretic, was investigated in isolated aortic rings from 12 week-old hypertensive rats. MCTZ (10(-4) M) inhibits the contractile response induced by addition of Ca2+ to a depolarizing solution, the maximal contracture is reduced by 87.16 +/- 6.4%. Furthermore this inhibitory effect was unaffected by charybdotoxine a selective blocker of calcium-activated K+ channels (Kca). This suggesting that MCTZ inhibits voltage-gated Ca2+ channels and blunts the Ca2+ entry into vascular smooth muscle cells. This inhibition was partially attenuated by either mechanical removal of the endothelium or N omega-nitro-L-arginine (NOLA) treatment, suggesting that MCTZ effects are also mediated by an endothelium-dependent mechanism involving endothelium-dependent relaxing factor (EDRF)/nitric oxide (NO) release. Taken together, these observations could point to a role of voltage-gated Ca2+ channels and endothelial release of EDRF/NO in the antihypertensive action of MCTZ.     

Curcumin suppresses PPARδ expression and related genes in HT-29 cells

AIM： To investigate the effects of curcumin on the expression of peroxisome proliferator-activated receptorδ （PPARδ） and related genes in HT-29 cells.
METHODS： HT-29 cells were treated with curcumin （0-80 μmol/L） for 24 h. The effects of curcumin on the morphology of HT-29 cells were studied by Hoechst 33342 staining. The activity of caspase-3 was determined using DEVD-pNA as substrate. The levels of peroxisome PPARδ, 14-3-3ε and vascular endothelial growth factor （VEGF） in HT-29 cells were determined by Western blotting analysis and their mRNA expression was determined by real-time quantitative RT-PCR. RESULTS： Treatment with 10-80 μmol/L curcumin induced typical features of apoptosis and activated the caspase-3 in HT-29 cells. The expression of PPARδ, 14-3-3ε and VEGF was reduced and the activity of β-catenin/Tcf-4 signaling was inhibited by curcumin treatment.
CONCLUSION： Curcumin can induce apoptosis of HT-29 cells and down-regulate the expression of PPARδ, 14-3-3ε and VEGF in HT-29.